Parallel FDTD analysis of active integrated antenna array

## Abstract The beam‐steering characteristic of a 1 × 4 linear Gunn‐integrated active antenna array is investigated by varying the bias voltages of the different elements in the array while keeping the side‐lobe level 10‐dB below the main beam level. By varying the bias voltage of all four elements

order of increasing losses. Figure 1 shows that it is possible that the correlation decreases with increasing losses, but it also shows the general tendency of pattern correlation to increase. If the antenna pair is physically symmetric and the added losses are asymmetric (that is, the dissipating m

## Abstract The finite‐difference time‐domain (FDTD) method is used to model the response of microstrip patch antennas on magnetized ferrite substrates. The proposed FDTD model utilizes the auxiliary differential equation approach to represent the frequency dependent permeability tensor in the time

## Abstract This paper presents numerical analyses of a plasma‐column antenna using the finite‐difference time‐domain (FDTD) technique. We have simulated simple plasma‐antenna configurations (monopoles) to demonstrate some of their properties. We have evaluated the field distribution around the pla

## Abstract The finite‐element method (FEM) is applied to the analysis of phased‐array antennas. Curvilinear tetrahedral elements are used for domain discretization and high‐order vector basis functions are used for field expansion. Periodic boundary and radiation conditions are enforced on a singl